CN113981646A

CN113981646A - Conveyor for lace machine

Info

Publication number: CN113981646A
Application number: CN202111630571.XA
Authority: CN
Inventors: 戴成功
Original assignee: Changzhou Wanteng Ultrasonic Equipment Co ltd
Current assignee: Changzhou Wanteng Ultrasonic Equipment Co ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-01-28
Anticipated expiration: 2041-12-29
Also published as: CN113981646B

Abstract

The invention relates to the technical field of lace machines, in particular to a conveyor for a lace machine. The invention provides a conveyor for a lace machine, which comprises: the cloth lace detection device comprises two blank pressing plates, a detection plate, a cleaning plate and a torsion spring, wherein a first supporting point is arranged between the two blank pressing plates, and the two blank pressing plates are respectively arranged on two sides of a cloth lace; the cleaning plate is arranged below the detection plate in parallel; the torsion spring is arranged at one end of the detection plate far away from the edge pressing plate; two parallel detection feet are fixed at the end part of the detection plate close to the edge pressing plate, and the upper ends of the two detection feet are respectively provided with an extrusion component communicated with the glue storage bin. The two blank holders are suitable for sliding and conveying the cloth lace. The detection plate is suitable for detecting whether a breakpoint exists at the edge of the cloth lace, and if the breakpoint exists in the cloth lace, the detection plate can spray glue to the inner side of the breakpoint of the cloth lace so as to repair the breakpoint. The cleaning plate can clean the end face of the other side of the cloth lace. The torsional spring is suitable for the drive pick-up plate to insert between the cloth lace breakpoint.

Description

Conveyor for lace machine

Technical Field

The invention relates to the technical field of lace machines, in particular to a conveyor for a lace machine.

Background

The lace machine is also called ultrasonic lace machine and ultrasonic embossing machine, which is safe and easy to operate; both straight and arc welding can be performed. The waterproof, sealing and antibacterial welding machine can meet the functional requirements of welding products on water resistance, sealing, bacteria resistance and the like, and the matched pattern wheel can improve the firmness and the attractiveness of the welding products, so that the welding machine is efficient sewing and embossing equipment.

In the working engineering of the lace machine, the broken point condition occurs at the lace part of the flannelette edge embossing due to misoperation or machine failure, and the broken point condition not only affects the beauty of flannelette, but also affects the use in the later period, so that the development of the conveyor for the lace machine is necessary.

Disclosure of Invention

The invention aims to provide a conveyor for a lace machine, which solves the technical problem that in the prior art, a lace breaking point occurs in the embossing process of the lace machine.

In order to solve the above technical problem, the present invention provides a conveyor for a lace machine, including: the detection device comprises two blank pressing plates, a detection plate, a cleaning plate and a torsion spring, wherein the two blank pressing plates are parallel to each other in the vertical direction, a first supporting point is arranged between the two blank pressing plates, one end of each blank pressing plate is pressed downwards to enable the other end of each blank pressing plate to move upwards, and the two blank pressing plates are respectively arranged on two sides of a flannelette embossing;

the detection plate is slidably arranged on one side of the blank holder plate and is perpendicular to the blank holder plate;

the cleaning plate is arranged below the detection plate in parallel and is linked with the detection plate;

the torsion spring is arranged at one end of the detection plate, which is far away from the blank pressing plate, and the torsion spring is suitable for pushing the detection plate to rotate towards the blank pressing plate;

the detection plate is hollow, a glue storage bin is arranged in the detection plate, and a glue spraying opening communicated with the glue storage bin is formed in the end part, close to the edge pressing plate, of the detection plate;

two parallel detection pins are fixed at the end part of the detection plate close to the edge pressing plate, and the upper ends of the two detection pins are respectively provided with an extrusion assembly communicated with the glue storage bin; wherein

When the device works, the flannelette embossing moves horizontally between the two blank holder plates, and the end parts of the two detection feet are respectively abutted against the embossing edges of the flannelette;

when the flannelette embossing has a breakpoint, the torsion spring pushes the detection plate to enable the two detection pins to be inserted into the breakpoint;

the edge pressing plate extrudes the extrusion assembly to enable the glue spraying port to spray glue into the breaking point of the flannelette embossing;

the detection plate synchronously drives the cleaning plate to rotate downwards so that the end part of the cleaning plate rubs against the workbench.

Furthermore, an inclined surface is arranged on the detection foot, and the inclined surface is arranged in an inclined manner from one side close to the edge pressing plate to one side of the detection plate;

an accommodating groove is formed in the upper end of the detection pin, the extrusion assembly is fixed in the accommodating groove, and the accommodating groove is communicated with the glue storage bin; wherein

When the extrusion assembly is pressed to enable the extrusion assembly to shrink towards the accommodating groove, the extrusion assembly can drive glue in the glue storage bin to spray towards flannelette embossing.

Further, the compression assembly includes: the pedal is arranged above the inclined surface of the detection foot in parallel, and one end, close to the edge pressing plate, of the pedal is hinged with the detection foot;

the air bag is arranged in the accommodating groove, and the lower end of the pedal abuts against the air bag;

one end of the connecting pipe is communicated with the air bag, the other end of the connecting pipe is communicated with the glue storage bin, and one end of the connecting pipe, which is close to the glue storage bin, is provided with a one-way valve; wherein

When the detection foot rotates towards the blank holder plate, the blank holder plate downwards extrudes the pedal to enable the air in the air bag to flow into the glue storage bin so as to drive the glue spraying opening to spray glue outwards.

Furthermore, two sides of the detection foot are respectively provided with an arc chamfer, and the arc chamfers are suitable for detecting the breaking points of the foot inserted into the flannelette embossing.

Furthermore, a connecting rod is vertically fixed at the lower end of the detection plate, the lower end of the connecting rod is fixed on the cleaning plate,

the middle of the connecting rod is provided with a second supporting point, and the cleaning plate can be driven to rotate downwards synchronously by pressing the detection plate downwards.

Furthermore, a scraping plate is fixed at the end part of the cleaning plate, the scraping plate is obliquely arranged with the horizontal plane, and the end part of the scraping plate is contacted with the flannelette at the edge pressing; wherein

When the device works, the scraper plate is contacted with the lower end of the edge pressing flannelette to clean floating hair;

when the torsional spring pushes the detection pin to be inserted into the embossing breakpoint of the flannelette, the detection plate synchronously drives the cleaning plate to rotate downwards so as to enable the end part of the scraping plate to rub with the workbench.

Further, be provided with on the workstation: the device comprises two support frames, a driving motor, a discharging roller, a cleaning part and an embossing part, wherein the driving motor is fixed at one end of the workbench and is linked with the discharging roller, and the discharging roller is suitable for discharging the lint;

the embossing part is fixed on the workbench and is suitable for embossing the edge of the flannelette;

two support frames are fixed on the workbench, the two support frames are arranged in parallel along the movement direction of the flannelette, the cleaning part is arranged on the support frames in a sliding way, wherein

When the detection plate works, after the flannelette is embossed by the embossing part, the detection plate can detect embossing breakpoints and spray glue for repairing;

the cleaning part moves downwards to clean floating hair on the surface of the flannelette.

Further, the embossing part includes: the positioning frame is fixed on the workbench, the positioning plate can be arranged on the positioning frame in a sliding mode and is arranged above the flannelette, the leveling cylinder is fixed above the positioning plate, the leveling plate is arranged below the positioning plate, and the leveling plate is fixed at the end portion of a piston rod of the leveling cylinder;

the welding head is fixed at the lower end of the positioning plate and faces the flannelette edge; wherein

And after the leveling cylinder drives the leveling plate to slide downwards to abut against the flannelette, the flannelette edge can be embossed by the welding head.

Further, the cleaning part includes: the cleaning device comprises a pushing cylinder, a cleaning roller and two linear moving pairs, wherein the pushing cylinder is vertically fixed on a fixed plate, the cleaning roller is fixed at the end part of a piston rod of the pushing cylinder and is arranged below the fixed plate, two ends of the fixed plate are respectively fixed at the moving ends of the two linear moving pairs, and two ends of a fixed rod of each linear moving pair are respectively fixed on the two support frames; wherein

The linear moving pair can drive the pushing cylinder to move horizontally;

the jacking cylinder can drive the cleaning roller to vertically move so as to clean floating hair on the surface of the flannelette.

The invention has the beneficial effects that the invention provides a conveyor for a lace machine, which comprises: the two blank pressing plates are parallel to each other in the vertical direction, a first supporting point is arranged between the two blank pressing plates, and the two blank pressing plates are respectively arranged on two sides of the flannelette embossing; the cleaning plate is arranged below the detection plate in parallel; the torsion spring is arranged at one end of the detection plate far away from the edge pressing plate; two parallel detection feet are fixed at the end part of the detection plate close to the edge pressing plate, and the upper ends of the two detection feet are respectively provided with an extrusion component communicated with the glue storage bin.

The detection plate is suitable for detecting whether a breakpoint exists at the embossing edge of the flannelette, and if the breakpoint does not exist in the embossing of the flannelette, the flannelette embossing can be normally conveyed along the length direction of the blank holder plate; if the flannelette embossing has a breakpoint, the detection plate can spray glue to the inner side of the flannelette embossing breakpoint so as to repair the breakpoint. The cleaning plate can clean the end face of the other side of the embossing of the flannelette so as to facilitate the embossing of the other side. The torsion spring is suitable for controlling the detection plate to be inserted between the lint embossing breakpoints when the breakpoints penetrate through the detection plate.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of an edge pressing plate and a detection plate of the present invention;

FIG. 2 is a perspective view of the detector plate of the present invention;

FIG. 3 is a longitudinal cross-sectional view of the sensing plate of the present invention;

FIG. 4 is a cross-sectional view of the sensing plate of the present invention;

FIG. 5 is a schematic representation of the operation of the detector plate of the present invention;

FIG. 6 is a schematic diagram of the insertion break point operation of the detection board of the present invention;

FIG. 7 is a perspective view of the cleaning section and the embossing section of the present invention;

fig. 8 is a perspective view of the embossed portion of the present invention.

In the figure:

1. pressing an edge plate; 11. a first support point; 2. detecting a plate; 21. a glue storage bin; 22. spraying a glue opening; 23. detecting a pin; 24. an extrusion assembly; 241. an air bag; 242. a pedal; 3. cleaning the plate; 31. a connecting rod; 32. a second support point; 33. a squeegee; 4. a torsion spring;

5. a work table; 51. a drive motor; 52. a discharge roller; 53. a support frame;

6. a cleaning part; 61. a pushing cylinder; 62. cleaning the roller; 63. a linear moving pair;

7. an embossing part; 71. a positioning frame; 72. a welding head; 73. positioning a plate; 74. leveling the plate; 75. and (6) leveling the cylinder.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

The flannelette embossing shown in the embodiment is formed by sewing two flannelette pieces, so that a whole thicker flannelette is formed, but in actual production, partial flaws always occur, so that a breaking point exists between flannelette embossing. The present embodiment gives a specific solution based on the above background.

As shown in fig. 1 to 8, the present invention provides a conveyor for a lace machine, including: two edge pressing plates 1, a detection plate 2, a cleaning plate 3 and a torsion spring 4. The two edge pressing plates 1 are suitable for sliding conveying flannelette embossing. The detection plate 2 is suitable for detecting whether a breakpoint exists at the embossing edge of the flannelette, and if the breakpoint does not exist in the embossing of the flannelette, the flannelette embossing can be normally conveyed along the length direction of the blank holder plate 1; if the flannelette embossing has a breakpoint, the detection plate 2 can spray glue to the inner side of the flannelette embossing breakpoint so as to repair the breakpoint. The cleaning plate 3 can clean the other end face of the flannelette embossing. The torsion spring 4 is suitable for pushing the detection plate 2 to pass through the end part of the detection plate 2 at the breakpoint, and the torsion spring 4 pushes the detection plate 2 to rotate towards the blank holder plate 1 under the action of elasticity so as to be inserted between flannelette embossing breakpoints. With respect to the above components, detailed description is given below.

Edge pressing plate

The edge pressing plates 1 are arranged on one side of the flannelette embossing, and the two edge pressing plates 1 are arranged in parallel and are parallel to the horizontal plane. A gap is arranged between the two edge pressing plates 1, and the gap between the two edge pressing plates 1 is the same as the thickness of the flannelette embossing when no break point exists, so that the flannelette embossing can be conveyed in a sliding mode between the two edge pressing plates 1. In addition, it should be noted that a first supporting point 11 is disposed between the two blank pressing plates 1, the first supporting point 11 is disposed along the width direction of the blank pressing plates 1, the first supporting point 11 is located in the middle of the length direction of the blank pressing plates 1, and the two blank pressing plates 1 are hinged through the first supporting point 11. When one end of each of the two edge pressing plates 1 moves away from each other with the first supporting point 11 as an axis, the other end moves toward each other with the first supporting point 11 as an axis. By the mode, when the flannelette embossing breakpoint part moves between the two edge pressing plates 1, the torsion spring 4 pushes the detection foot 23 to be inserted into the breakpoint, so that the detection foot 23 pushes the two edge pressing plates 1 to be propped open by taking the supporting point 11 as the axial two sides, and meanwhile, one ends of the two edge pressing plates 1, which are far away from the supporting foot 23, move oppositely by taking the first supporting point 11 as the shaft to compact flannelette.

Detection board

The detection plate 2 is slidably arranged on one side of the edge pressing plate 1, and the detection plate 2 is perpendicular to the edge pressing plate 1. The detection plate 2 is suitable for detecting whether a breakpoint exists at the embossing edge of the flannelette, and if the breakpoint does not exist in the embossing of the flannelette, the flannelette embossing can be normally conveyed along the length direction of the blank holder plate 1; if the flannelette embossing has a breakpoint, the detection plate 2 can spray glue to the inner side of the flannelette embossing breakpoint so as to repair the breakpoint. Specifically, when the embossing of the flannelette is complete, the detection plate 2 is positioned at the outer sides of the two edge pressing plates 1, and the embossing of the flannelette is normally conveyed in a sliding manner between the two edge pressing plates 1; when the flannelette embossing is incomplete and breakpoints occur, the torsion spring 4 drives the detection plate 2 to be inserted between the breakpoints, one ends of the two blank pressing plates 1 are propped open by the detection feet 23, and after the two blank pressing plates 1 are propped open, the blank pressing plates extrude an extrusion assembly 24 arranged at the upper ends of the detection feet 23, so that glue in the detection plate 2 is sprayed between the breakpoints; after glue is sprayed into the flannelette embossing breakpoint, when flannelette moves to one end of the blank holder plate 1 far away from the detection plate 2, the two blank holder plates 1 are inwards contracted through the first supporting points 11, so that flannelette embossing breakpoint is partially compressed, the glue is fully diffused to the periphery of the breakpoint, and the effect of flannelette embossing breakpoint repair is ensured.

In order to realize the above effect, the detection plate 2 is hollow, the detection plate 2 is provided with a glue storage bin 21, and the end part of the detection plate 2 close to the edge pressing plate 1 is provided with a glue spraying opening 22 communicated with the glue storage bin 21. The glue storage bin 21 is suitable for storing glue, when the detection plate 2 is inserted into a flannel embossing breakpoint, the upper end of the detection plate 2 abuts against the lower end of the blank holder 1 arranged above, and the blank holder 1 extrudes the detection plate 2, so that the glue in the glue storage bin 21 is sprayed to the flannel embossing breakpoint through the glue spraying opening 22. Two parallel detection feet 23 are fixed at the end part of the detection plate 2 close to the edge pressing plate 1, the detection plate 2 can be inserted between the embossing breakpoints of the flannelette through the two detection feet 23, and the end parts of the two detection feet 23 are respectively abutted against the embossing edges of the flannelette. The upper ends of the two detection feet 23 are respectively provided with an extrusion component 24 communicated with the glue storage bin 21, the extrusion component 24 is arranged at the upper ends of the detection feet 23, and the edge pressing plate 1 extrudes the extrusion component 24 so that the extrusion component 24 pushes the glue in the glue storage bin 21 to be sprayed out of the detection plate 2 and to be sprayed to the lint breaking point.

The two sides of the detection foot 23 are respectively provided with an arc chamfer which is suitable for the breakpoint of the insertion of the detection foot 23 into the flannelette embossing. Meanwhile, when the flannelette embossing has no break point, the arc chamfer can guide the two detection feet 23 to overcome the elasticity of the torsion spring for resetting, and the end parts of the detection feet 23 are always kept in a propping state with the flannelette embossing; the detection leg 23 is provided with an inclined surface, and the inclined surface is arranged in an inclined manner from one side close to the blank holder 1 to one side of the detection plate 2, so that the thickness of the inclined surface is gradually increased from the direction far away from the blank holder 1 until the thickness of the inclined surface is equal to that of the detection plate 2. The upper end of the detection pin 23 is provided with an accommodating groove, the accommodating groove is composed of an inclined plane, the end face of the detection plate 2 and the end face of the detection pin 23, and the longitudinal section of the accommodating groove is in the shape of a right triangle. The extrusion assembly 24 is fixed in the accommodating groove, and the accommodating groove is communicated with the glue storage bin 21. When the extruding assembly 24 is pressed to shrink into the accommodating groove, the extruding assembly 24 can drive the glue in the glue storage bin 21 to spray to emboss the flannelette.

The structure of the extrusion assembly 24 is described in detail below, the extrusion assembly 24 including: an air bag 241, a connecting tube, and a pedal 242. The pedal 242 is arranged above the inclined plane of the detection foot 23 in parallel, and one end of the pedal 242 close to the edge pressing plate 1 is hinged with the detection foot 23; the air bag 241 is arranged in the accommodating groove, and the lower end of the pedal 242 abuts against the air bag 241; one end of the connecting pipe is communicated with the air bag 241, the other end of the connecting pipe is communicated with the glue storage bin 21, and one end of the connecting pipe close to the glue storage bin 21 is provided with a one-way valve. The pedal 242 is a trigger mechanism of the pressing assembly 24, and when the torsion spring pushes the detection foot 23 to rotate towards the blank holder 1, the blank holder 1 can press the end face of the pedal 242, so that the pedal 242 moves downwards with the hinge point as the axis and the other end as the axis; the pedal 242 presses the air bag 241 downwards to compress, air in the air bag 241 can be guided into the glue storage bin 21 through the connecting pipe, air pressure in the glue storage bin 21 is increased, and glue in the glue storage bin 21 is extruded out. In this way, when the detection foot 23 moves towards the edge pressing plate 1, the edge pressing plate 1 presses the pedal 242 downwards to make the air in the air bag 241 flow into the glue storage bin 21 to drive the glue spraying opening 22 to spray glue outwards.

In order to control the insertion of the detection plate 2 into the breaking point of the flannelette embossing or the withdrawal from between the two edge pressing plates 1. A connecting rod 31 is vertically fixed at the lower end of the detection plate 2, a second supporting point 32 is arranged in the middle of the connecting rod 31, and a torsion spring 4 is correspondingly arranged outside the two second supporting points 32. The torsion spring 4 is arranged at one end of the detection plate 2 far away from the blank pressing plate 1, and the torsion spring 4 is suitable for pushing the detection plate 2 to rotate towards the blank pressing plate 1. When the detection plate 2 is positioned at the outer side of the edge pressing plate 1, the two torsion springs 4 are in a torsion state, so that the end parts of the two detection feet 23 are always abutted against the embossing edge of the flannelette. When the flannelette embossing has a breakpoint, the torsion spring 4 pushes the detection plate 2 to rotate towards the two edge pressing plates 1, so that the two edge pressing plates 1 are propped open by the detection feet 23, and the detection plate 2 axially rotates around the second supporting point 32 under the action of the elasticity of the two torsion springs 4, so that the two detection feet 23 are inserted between the two edge pressing plates 1.

Cleaning plate

Cleaning plate 3 is fixed at connecting rod 31 lower extreme, and connecting rod 31 and pick-up plate 2 parallel arrangement, and cleaning plate 3 and pick-up plate 2 linkage. When the torsion spring 4 drives the detection plate 2 to rotate downwards by taking the second supporting point 32 as an axis, the cleaning plate 3 can be driven to synchronously rotate downwards by taking the second supporting point 32 as an axis.

A scraping plate 33 is fixed at the end part of the cleaning plate 3, the scraping plate 33 is arranged obliquely with the horizontal plane, and the end part of the scraping plate 33 is contacted with the flannelette at the edge pressing. When the device works, the scraper 33 is contacted with the lower end of the edge pressing flannelette to clean floating hair; when the torsion spring 4 pushes the detection foot 23 to be inserted into the embossing breakpoint of the flannelette, the detection plate 2 synchronously drives the cleaning plate 3 to rotate downwards so that the end part of the scraping plate 33 rubs against the workbench 5. In this way, when the intact part of the edge pressing flannelette passes through the edge pressing plate 1, the scraping plate 33 cleans the floating wool at the lower end of the edge pressing flannelette; when the breakpoint part of the blank pressing flannelette penetrates through the blank pressing plate 1, the cleaning plate 3 rotates to abut against the workbench 5 by taking the second supporting point 32 as a shaft, and the workbench 5 can polish the scraper 33.

The working process of the edge pressing plate 1, the detection plate 2 and the cleaning plate 3 is as follows: when the device works, the embossing of the flannelette moves horizontally between the two edge pressing plates 1, and the end parts of the two detection feet 23 are respectively abutted against the embossing edges of the flannelette; when the flannelette embossing has a breakpoint, the torsion spring 4 pushes the detection plate 2 to enable the two detection feet 23 to be inserted into the breakpoint; the edge pressing plate 1 presses the pedal 242 to make the glue spraying opening 22 spray glue into the breaking point of the flannelette embossing; the detection plate 2 synchronously drives the cleaning plate 3 to rotate downwards so that the end part of the cleaning plate 3 rubs with the workbench 5.

It should be noted that the above process is a solution for detecting and repairing the embossed portion of the lint, and in the whole process, before detecting whether the lint embossing is intact, the two stacked lint should be embossed and the lint surface should be cleaned. In order to achieve the above-mentioned effects, the table 5 according to the present invention further includes: two supporting frames 53, a driving motor 51, a discharging roller 52, a cleaning part 6 and an embossing part 7. The driving motor 51 is fixed at one end of the workbench 5, the discharging roller 52 is arranged at one side of the driving motor 51 close to the cleaning part 6, and the driving motor 51 is linked with the discharging roller 52. Specifically, a belt is sleeved on the outer side of an output shaft of the driving motor 51, the other end of the belt is sleeved on a rotating shaft of the discharging roller 52, when the driving motor 51 works, torque can be output outwards, and the torque is conveyed to the discharging roller 52 through the belt, so that the discharging roller 52 is driven to rotate synchronously. The discharging roller 52 is adapted to discharge the lint, and the discharging roller 52 is pulled by the lint tension when rotating around the shaft, so that the lint is wound around the side wall of the discharging roller 52. The two support frames 53 are fixed on the working table 5, and the two support frames 53 are arranged in parallel with each other along the movement direction of the flannelette. A gap is provided between the two support frames 53. The cleaning part 6 is arranged between the two support frames 53 and is positioned by the support frames 53, and the cleaning part 6 can slide along the gap between the two support frames 53. When the cleaning part 6 works, the cleaning part 6 can float wool on the surface of the flannelette. The embossing part 7 is fixed on the working table 5, and the embossing part 7 is suitable for embossing the flannelette edge. When the embossing part 7 works, after the lint is embossed by the embossing part 7, the detection plate 2 can detect the embossing break point and spray glue for repairing. In order to achieve the above-described effects, the structure of the embossing part 7 and the cleaning part 6 will be specifically described below.

Embossing part

The embossing part 7 is provided on the side of the discharging roller 52, and when the lint is wound by the discharging roller 52, the lint passes through the inside of the embossing part 7, and the embossing part 7 can emboss the lint. The embossed portion 7 includes: a positioning frame 71, a welding head 72, a positioning plate 73, a leveling plate 74 and a leveling cylinder 75. The positioning frame 71 is fixed to the table 5, and the positioning plate 73 is slidably provided on the positioning frame 71, specifically. The two sides of the positioning frame 71 are provided with slide rails parallel to the movement direction of the lint, the positioning plate 73 is correspondingly provided with slide blocks matched with the slide blocks, and the positioning plate 73 can slide along the positioning frame 71 through the matching between the slide rails and the slide blocks. The positioning plate 73 is arranged above the lint, the leveling cylinder 75 is fixed above the positioning plate 73, the leveling plate 74 is arranged below the positioning plate 73, and the leveling plate 74 is fixed at the end part of the piston rod of the leveling cylinder 75; the welding head 72 is fixed to the lower end of the positioning plate 73, and the welding head 72 faces the flannel edge. After the leveling cylinder 75 drives the leveling plate 74 to slide downwards to abut against the flannelette, the welding head 72 can emboss the edge of the flannelette.

Cleaning part

Cleaning portion 6 sets up in the knurling portion 7 outside, and cleaning portion 6 is to the lint surface when floating hair, and cleaning portion 6 can pass knurling portion 7 and lint surface laminating. The cleaning section 6 includes: the pushing cylinder 61 is vertically fixed on a fixed plate, the cleaning roller 62 is fixed at the end part of a piston rod of the pushing cylinder 61, the cleaning roller 62 is arranged below the fixed plate, two ends of the fixed plate are respectively fixed at moving ends of the two linear moving pairs 63, and two ends of a fixed rod of each linear moving pair 63 are respectively fixed on the two support frames 53. The linear moving pair 63 can drive the pushing cylinder 61 to move horizontally; the pushing cylinder 61 can drive the cleaning roller 62 to vertically move so as to clean the floating hair on the surface of the lint.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. A conveyor for a lace machine, comprising:

the two edge pressing plates (1) are mutually parallel in the vertical direction, a first supporting point (11) is arranged between the two edge pressing plates (1), one end of each edge pressing plate (1) is pressed downwards to enable the other end of each edge pressing plate (1) to move upwards, and the two edge pressing plates (1) are respectively arranged on two sides of the flannelette embossing;

the detection plate (2) is slidably arranged on one side of the edge pressing plate (1), and the detection plate (2) is perpendicular to the edge pressing plate (1);

the cleaning plate (3) is arranged below the detection plate (2) in parallel, and the cleaning plate (3) is linked with the detection plate (2);

the torsion spring (4) is arranged at one end, far away from the edge pressing plate (1), of the detection plate (2), and the torsion spring (4) is suitable for pushing the detection plate (2) to rotate towards the edge pressing plate (1);

the detection plate (2) is hollow, a glue storage bin (21) is arranged inside the detection plate (2), and a glue spraying opening (22) communicated with the glue storage bin (21) is formed in the end part, close to the edge pressing plate (1), of the detection plate (2);

two parallel detection pins (23) are fixed at the end part of the detection plate (2) close to the edge pressing plate (1), and the upper ends of the two detection pins (23) are respectively provided with an extrusion component (24) communicated with the glue storage bin (21); wherein

When the device works, the embossing of the flannelette moves horizontally between the two edge pressing plates (1), and the end parts of the two detection feet (23) are respectively abutted against the embossing edges of the flannelette;

when the flannelette embossing has a breakpoint, the torsion spring (4) pushes the detection plate (2) to enable the two detection feet (23) to be inserted into the breakpoint;

the edge pressing plate (1) extrudes the extrusion assembly (24) to enable the glue spraying opening (22) to spray glue into the breaking point of the flannelette embossing;

the detection plate (2) synchronously drives the cleaning plate (3) to rotate downwards so that the end part of the cleaning plate (3) rubs against the workbench (5).

2. The conveyor for a lace machine according to claim 1,

the detection foot (23) is provided with an inclined surface, and the inclined surface is arranged in an inclined manner from one side close to the edge pressing plate (1) to one side of the detection plate (2);

an accommodating groove is formed in the upper end of the detection pin (23), the extrusion assembly (24) is fixed in the accommodating groove, and the accommodating groove is communicated with the glue storage bin (21); wherein

When the extrusion assembly (24) is pressed to be contracted into the accommodating groove, the extrusion assembly (24) can drive the glue in the glue storage bin (21) to spray to emboss the flannelette.

3. The conveyor for a lace machine according to claim 2,

the compression assembly (24) includes: the detection device comprises an air bag (241), a connecting pipe and a pedal (242), wherein the pedal (242) is arranged above the inclined surface of the detection foot (23) in parallel, and one end, close to the edge pressing plate (1), of the pedal (242) is hinged to the detection foot (23);

the air bag (241) is arranged in the accommodating groove, and the lower end of the pedal (242) is abutted against the air bag (241);

one end of the connecting pipe is communicated with the air bag (241), the other end of the connecting pipe is communicated with the glue storage bin (21), and one end of the connecting pipe, which is close to the glue storage bin (21), is provided with a one-way valve; wherein

When the detection foot (23) moves towards the edge pressing plate (1), the edge pressing plate (1) downwards presses the pedal (242) to enable air in the air bag (241) to flow into the glue storage bin (21) so as to drive the glue spraying opening (22) to spray glue outwards.

4. The conveyor for a lace machine according to claim 3,

the two sides of the detection foot (23) are respectively provided with an arc chamfer, and the arc chamfers are suitable for detecting the breaking point of the insertion of the detection foot (23) into the flannelette embossing.

5. The conveyor for a lace machine according to claim 4,

a connecting rod (31) is vertically fixed at the lower end of the detection plate (2), the lower end of the connecting rod (31) is fixed on the side wall of the cleaning plate (3),

the middle of the connecting rod (31) is provided with a second supporting point (32), and the detecting plate (2) is pressed downwards to synchronously drive the cleaning plate (3) to rotate downwards.

6. The conveyor for a lace machine according to claim 5,

a scraping plate (33) is fixed at the end part of the cleaning plate (3), the scraping plate (33) is obliquely arranged with the horizontal plane, and the end part of the scraping plate (33) is contacted with the blank pressing flannelette; wherein

When the device works, the scraping plate (33) is contacted with the lower end of the edge pressing flannelette to clean floating hair;

when the torsion spring (4) pushes the detection foot (23) to be inserted into the embossing breakpoint of the flannelette, the detection plate (2) synchronously drives the cleaning plate (3) to rotate downwards so that the end part of the scraper (33) rubs against the workbench (5).

7. The conveyor for a lace machine according to claim 6,

the workbench (5) is provided with: the cleaning device comprises two support frames (53), a driving motor (51), a discharging roller (52), a cleaning part (6) and an embossing part (7), wherein the driving motor (51) is fixed at one end of the workbench (5), the driving motor (51) is linked with the discharging roller (52), and the discharging roller (52) is suitable for unreeling the lint;

the embossing part (7) is fixed on the workbench (5), and the embossing part (7) is suitable for embossing the edge of the flannelette;

two support frames (53) are fixed on the workbench (5), the two support frames (53) are arranged in parallel along the movement direction of the flannelette, the cleaning part (6) is arranged on the support frames (53) in a sliding way, wherein

When the detection plate works, after the flannelette is embossed by the embossing part (7), the detection plate (2) can detect embossing breakpoints and spray glue for repairing;

the cleaning part (6) moves downwards to clean the floating hair on the surface of the flannelette.

8. The conveyor for a lace machine according to claim 7,

the embossing part (7) comprises: the device comprises a positioning frame (71), a welding head (72), a positioning plate (73), a leveling plate (74) and a leveling cylinder (75), wherein the positioning frame (71) is fixed on the workbench (5), the positioning plate (73) is slidably arranged on the positioning frame (71), the positioning plate (73) is arranged above flannelette, the leveling cylinder (75) is fixed above the positioning plate (73), the leveling plate (74) is arranged below the positioning plate (73), and the leveling plate (74) is fixed at the end part of a piston rod of the leveling cylinder (75);

the welding head (72) is fixed at the lower end of the positioning plate (73), and the welding head (72) faces the flannelette edge; wherein

After the leveling cylinder (75) drives the leveling plate (74) to slide downwards to abut against the flannelette, the welding head (72) can carry out embossing treatment on the flannelette edge.

9. The conveyor for a lace machine according to claim 8,

the cleaning section (6) includes: the device comprises a pushing cylinder (61), a cleaning roller (62) and two linear moving pairs (63), wherein the pushing cylinder (61) is vertically fixed on a fixed plate, the cleaning roller (62) is fixed at the end part of a piston rod of the pushing cylinder (61), the cleaning roller (62) is arranged below the fixed plate, two ends of the fixed plate are respectively fixed at moving ends of the two linear moving pairs (63), and two ends of a fixed rod of each linear moving pair (63) are respectively fixed on the two support frames (53); wherein

The linear moving pair (63) can drive the pushing cylinder (61) to move horizontally;

the jacking cylinder (61) can drive the cleaning roller (62) to vertically move so as to clean the floating hair on the surface of the lint.